An approach of using primitive feature analysis in manufacturability analysis systems for micro-milling/drilling

Syaimak, A. S.; Axinte, Dragoş

doi:10.1080/09511920802632176

Cited by 9 publications

(3 citation statements)

References 29 publications

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“…as is done by manufacturing features, assembly features, piping features, etc.) (Syaimak and Axinte 2009). They are often called part features or application features.…”

Section: From Traditional Feature Technology To Smfsmentioning

confidence: 99%

Towards a methodology of system manifestation features-based pre-embodiment design

Pourtalebi

Horváth

2016

Journal of Engineering Design

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The main assumption is that complicated systems, such as cyberphysical systems (CPSs), can be modelled by specific compositions of system manifestation features (SMFs). SMFs are regarded as architectural domains of a system having significance from an operational viewpoint. As system modelling entities, SMFs represent both physical and computing transformations of domains. Based on mereo-operandi theory (MOT), a computational framework for using SMFs in pre-embodiment design of CPSs is proposed. MOT offers a theoretical platform for concurrent modelling of architectural elements and their operations. The traditional 'application feature technology' has been generalised in order to provide a methodological basis. The computational formalisation captures state transitions and input/ output streams, in addition to spatiotemporal, physical and/or computational attributes of domains. Domain transformations are represented by flows of operation (FoOs) that consist of timesequenced and logically constrained sets of units of operations (UoOs), and processed by various computational methods as procedures. The domains of SMFs are aggregated into a feasible architecture, and their UoOs are combined into FoOs. An application case is used to explain the concepts and to demonstrate feasibility of the proposed approach. Further research will focus on implementation of an SMFs-based preembodiment design system and testing its feasibility and usability with designers of CPSs.

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“…as is done by manufacturing features, assembly features, piping features, etc.) (Syaimak and Axinte 2009). They are often called part features or application features.…”

Section: From Traditional Feature Technology To Smfsmentioning

confidence: 99%

Towards a methodology of system manifestation features-based pre-embodiment design

Pourtalebi

Horváth

2016

Journal of Engineering Design

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“…Today, manufacturability evaluation which derives from the research in DFM becomes an important step in the design stage. While a majority of the manufacturability evaluation research concentrates on machining processes such as milling and drilling processes, 1,2 there is less focus on non-machining processes such as composite manufacturing process.…”

Section: Introductionmentioning

confidence: 99%

Manufacturability analysis of composite component and its evaluation methodology

Tang

Liu

et al. 2013

Journal of Reinforced Plastics and Composites

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Manufacturability calculation of product’s design proposal often plays a vital role in many engineering applications, which is critical to achieve reduced time to market, high quality, and low cost. A methodology for the manufacturability evaluation of composite material components during preliminary stage of design is introduced and applied for the thermosetting composite laminated components produced by autoclave process in this article. The proposed methodology relies on the consideration that the component’s quality is a decisive index in the manufacturability evaluation of composite products. First, according to the analysis of composite product manufacturing processes, the concept of composite product manufacturability was proposed in this article. Second, the knowledge-based manufacturability evaluation flow is acquired based on the hierarchical indices setup of composite product manufacturability. Then, we mainly studied assessment model of composite product quality controllability: the quality controllability of composite product and its influencing factors were discussed. In addition, the quality controllability assessment model proposed was carried out step by step through the characteristic of multi-procedure in the production of composite product. In the end, an example of composite laminate component was provided to demonstrate the proposed model for evaluating the manufacturability.

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“…STEP-NC provides a complete and structured data model, linked with geometrical and technological information, so that it is possible for a machine tool to machine a part with some intelligence. A lot of work has been done in manufacturability evaluation for automated process planning [5,6]. However, how to evaluate the manufacturability of a STEP-NC program for a designate machine tool is very important since a STEP-NC program may be written once and used on many different types of machine tools with differing controllers.…”

Section: Introductionmentioning

confidence: 99%

Development of STEP-NC Based Manufacturability Evaluation System

Shu

2012

AMR

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A method and prototype system have been developed to assess manufacturability of a machining job with a known machine tool. The data for describing the machining task confirms to STEP-NC data model, i.e. ISO 14649. A group of manufacturability indices have been suggested used in the system. They are called “Key Manufacturability Indicators” (KMIs). Examples of KMIs are workpiece clamping data, machine tool’s capability and cutting tool information. To assist the evaluation process, a machine tool data model is used. The prototype system is validated through an example.

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An approach of using primitive feature analysis in manufacturability analysis systems for micro-milling/drilling

Cited by 9 publications

References 29 publications

Towards a methodology of system manifestation features-based pre-embodiment design

Towards a methodology of system manifestation features-based pre-embodiment design

Manufacturability analysis of composite component and its evaluation methodology

Development of STEP-NC Based Manufacturability Evaluation System

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